A `20` volts `5` watt lamp(lamp to be treated as a resistor) is used on `AC` mains of `200` volts and `50/pisqrt11 c.p.s` Calculate the (i)capacitance of the capacitor, or inductance of the inductance, to be put in series to run the lamp.

A 20 volts 5 watt Jamp is used on a.c. mains of 200 volts 50 c.p.s. Calculate the value of (a) capacitance, (b) inductance to be put in series to run the lamp. (c) how much pure resistance should be included in place of the above device so that lamp can run on its voltage

A 50 W, 100V lamp is to be connected to an ac mains of 200V, 50 Hz. What capacitor is essential to be put in series with the lamp?

An 8 H inductor, a 2 mu F capacitor and a 100 Omega resistor are connected in series to an A.C. supply of 220 V and 50 Hz. Calculate : (i) Impedance of the circuit. (ii) Current flowing through the circuit. (iii)Phase difference between the current and the supply voltage. (iv) Average power consumed by the circuit.

A 10 mu F capacitor is conneted with 1 henry inductance in series with a 50 hertz source of a.c. Calculate the impedance of the combination.

A coil of inductance L = 5//8 H and of resistance R = 62.8 (Omega) is connected to the mains alternating voltage of frequency 50 Hz. What can be the capacitance of the capacitor (in (mu)F) connected in series with the coil if the power dissipated has to remain unchanged? Take (pi)^(2) = 10 .

A capacitor (C) and a resistor (R) are connected in series with an a.c, source of voltage of frequency 50 Hz. The potential difference across C and R are respectively 120 V and 90 V. The current in the circuit is 3A. Calculate () impedance of the circuit, (i) value of the inductance which when connected in series with Cand R will make the power fador of the circuit unity.

A coil draws a current of 1.0 ampere and a power of 100 watt from an A.C. source of 110 volts and (5sqrt22)/pi hertz. Find the inductance and resistance of the coil.

2.5/(pi) muF capacitor and 3000- ohm resistance are joined in series to an AC source of 200 "volts" and 50sec^(-1) frequency. The power factor of the circuit and the power dissipated in it will respectively

A coil of inductance L=5H and resistance R=55Omega is connected in series to the mains alternating voltage of frequency f=50Hz in series. What can be the non-zero capacitance of the capacitor (in muF ) connected in series with the coil, if the power dissipated has to remain unchanged. (take pi^(2)=10 )

A circuit has a resistance of 50 ohms and an inductance of 3/pi henry.It is connected in series with a condenser of 40/pi muF and AC supply voltage of 200 V and 50 cycles/sec.Calculate (i)the impedance of the circuit. (ii)the p.d. across inductor coil and condenser. (iii)Power factor